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fyhyp.F @ 630

Last change on this file since 630 was 630, checked in by Laurent Fairhead, 19 years ago
Import d'une version parallele de la dynamique YM LF
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Line
1	!
2	! $Header$
3	!
4	c
5	c
6	SUBROUTINE fyhyp ( yzoomdeg, grossism, dzoom,tau ,
7	, rrlatu,yyprimu,rrlatv,yyprimv,rlatu2,yprimu2,rlatu1,yprimu1 ,
8	, champmin,champmax )
9
10	cc ... Version du 01/04/2001 ....
11
12	IMPLICIT NONE
13	c
14	c ... Auteur : P. Le Van ...
15	c
16	c ....... d'apres formulations de R. Sadourny .......
17	c
18	c Calcule les latitudes et derivees dans la grille du GCM pour une
19	c fonction f(y) a tangente hyperbolique .
20	c
21	c grossism etant le grossissement ( = 2 si 2 fois, = 3 si 3 fois , etc)
22	c dzoom etant la distance totale de la zone du zoom ( en radians )
23	c tau la raideur de la transition de l'interieur a l'exterieur du zoom
24	c
25	c
26	c N.B : Il vaut mieux avoir : grossism * dzoom < pi/2 (radians) ,en lati.
27	c ********************************************************************
28	c
29	c
30	#include "dimensions.h"
31	#include "paramet.h"
32
33	INTEGER nmax , nmax2
34	PARAMETER ( nmax = 30000, nmax2 = 2*nmax )
35	c
36	c
37	c ....... arguments d'entree .......
38	c
39	REAL yzoomdeg, grossism,dzoom,tau
40	c ( rentres par run.def )
41
42	c ....... arguments de sortie .......
43	c
44	REAL rrlatu(jjp1), yyprimu(jjp1),rrlatv(jjm), yyprimv(jjm),
45	, rlatu1(jjm), yprimu1(jjm), rlatu2(jjm), yprimu2(jjm)
46
47	c
48	c ..... champs locaux .....
49	c
50
51	REAL*8 ylat(jjp1), yprim(jjp1)
52	REAL*8 yuv
53	REAL*8 yt(0:nmax2)
54	REAL*8 fhyp(0:nmax2),beta,Ytprim(0:nmax2),fxm(0:nmax2)
55	SAVE Ytprim, yt,Yf
56	REAL*8 Yf(0:nmax2),yypr(0:nmax2)
57	REAL*8 yvrai(jjp1), yprimm(jjp1),ylatt(jjp1)
58	REAL*8 pi,depi,pis2,epsilon,y0,pisjm
59	REAL*8 yo1,yi,ylon2,ymoy,Yprimin,champmin,champmax
60	REAL*8 yfi,Yf1,ffdy
61	REAL*8 ypn,deply,y00
62	SAVE y00, deply
63
64	INTEGER i,j,it,ik,iter,jlat
65	INTEGER jpn,jjpn
66	SAVE jpn
67	REAL*8 a0,a1,a2,a3,yi2,heavyy0,heavyy0m
68	REAL*8 fa(0:nmax2),fb(0:nmax2)
69	REAL y0min,y0max
70
71	REAL*8 heavyside
72
73	pi = 2. * ASIN(1.)
74	depi = 2. * pi
75	pis2 = pi/2.
76	pisjm = pi/ FLOAT(jjm)
77	epsilon = 1.e-3
78	y0 = yzoomdeg * pi/180.
79
80	IF( dzoom.LT.1.) THEN
81	dzoom = dzoom * pi
82	ELSEIF( dzoom.LT. 12. ) THEN
83	WRITE(6,*) ' Le param. dzoomy pour fyhyp est trop petit ! L aug
84	,menter et relancer ! '
85	STOP 1
86	ELSE
87	dzoom = dzoom * pi/180.
88	ENDIF
89
90	WRITE(6,18)
91	WRITE(6,*) ' yzoom( rad.),grossism,tau,dzoom (radians)'
92	WRITE(6,24) y0,grossism,tau,dzoom
93
94	DO i = 0, nmax2
95	yt(i) = - pis2 + FLOAT(i)* pi /nmax2
96	ENDDO
97
98	heavyy0m = heavyside( -y0 )
99	heavyy0 = heavyside( y0 )
100	y0min = 2.y0heavyy0m - pis2
101	y0max = 2.y0heavyy0 + pis2
102
103	fa = 999.999
104	fb = 999.999
105
106	DO i = 0, nmax2
107	IF( yt(i).LT.y0 ) THEN
108	fa (i) = tau* (yt(i)-y0+dzoom/2. )
109	fb(i) = (yt(i)-2.y0heavyy0m +pis2) * ( y0 - yt(i) )
110	ELSEIF ( yt(i).GT.y0 ) THEN
111	fa(i) = tau *(y0-yt(i)+dzoom/2. )
112	fb(i) = (2.y0heavyy0 -yt(i)+pis2) * ( yt(i) - y0 )
113	ENDIF
114
115	IF( 200.* fb(i) .LT. - fa(i) ) THEN
116	fhyp ( i) = - 1.
117	ELSEIF( 200. * fb(i) .LT. fa(i) ) THEN
118	fhyp ( i) = 1.
119	ELSE
120	fhyp(i) = TANH ( fa(i)/fb(i) )
121	ENDIF
122
123	IF( yt(i).EQ.y0 ) fhyp(i) = 1.
124	IF(yt(i).EQ. y0min. OR.yt(i).EQ. y0max ) fhyp(i) = -1.
125
126	ENDDO
127
128	cc .... Calcul de beta ....
129	c
130	ffdy = 0.
131
132	DO i = 1, nmax2
133	ymoy = 0.5 * ( yt(i-1) + yt( i ) )
134	IF( ymoy.LT.y0 ) THEN
135	fa(i)= tau * ( ymoy-y0+dzoom/2.)
136	fb(i) = (ymoy-2.y0heavyy0m +pis2) * ( y0 - ymoy )
137	ELSEIF ( ymoy.GT.y0 ) THEN
138	fa(i)= tau * ( y0-ymoy+dzoom/2. )
139	fb(i) = (2.y0heavyy0 -ymoy+pis2) * ( ymoy - y0 )
140	ENDIF
141
142	IF( 200.* fb(i) .LT. - fa(i) ) THEN
143	fxm ( i) = - 1.
144	ELSEIF( 200. * fb(i) .LT. fa(i) ) THEN
145	fxm ( i) = 1.
146	ELSE
147	fxm(i) = TANH ( fa(i)/fb(i) )
148	ENDIF
149	IF( ymoy.EQ.y0 ) fxm(i) = 1.
150	IF (ymoy.EQ. y0min. OR.yt(i).EQ. y0max ) fxm(i) = -1.
151	ffdy = ffdy + fxm(i) * ( yt(i) - yt(i-1) )
152
153	ENDDO
154
155	beta = ( grossism * ffdy - pi ) / ( ffdy - pi )
156
157	IF( 2.*beta - grossism.LE. 0.) THEN
158
159	WRITE(6,) ' * Attention ! La valeur beta calculee dans la rou
160	,tine fyhyp est mauvaise ! '
161	WRITE(6,*)'Modifier les valeurs de grossismy ,tauy ou dzoomy',
162	, ' et relancer ! *** '
163	CALL ABORT
164
165	ENDIF
166	c
167	c ..... calcul de Ytprim .....
168	c
169
170	DO i = 0, nmax2
171	Ytprim(i) = beta + ( grossism - beta ) * fhyp(i)
172	ENDDO
173
174	c ..... Calcul de Yf ........
175
176	Yf(0) = - pis2
177	DO i = 1, nmax2
178	yypr(i) = beta + ( grossism - beta ) * fxm(i)
179	ENDDO
180
181	DO i=1,nmax2
182	Yf(i) = Yf(i-1) + yypr(i) * ( yt(i) - yt(i-1) )
183	ENDDO
184
185	c ****************************************************************
186	c
187	c ..... yuv = 0. si calcul des latitudes aux pts. U .....
188	c ..... yuv = 0.5 si calcul des latitudes aux pts. V .....
189	c
190	WRITE(6,18)
191	c
192	DO 5000 ik = 1,4
193
194	IF( ik.EQ.1 ) THEN
195	yuv = 0.
196	jlat = jjm + 1
197	ELSE IF ( ik.EQ.2 ) THEN
198	yuv = 0.5
199	jlat = jjm
200	ELSE IF ( ik.EQ.3 ) THEN
201	yuv = 0.25
202	jlat = jjm
203	ELSE IF ( ik.EQ.4 ) THEN
204	yuv = 0.75
205	jlat = jjm
206	ENDIF
207	c
208	yo1 = 0.
209	DO 1500 j = 1,jlat
210	yo1 = 0.
211	ylon2 = - pis2 + pisjm * ( FLOAT(j) + yuv -1.)
212	yfi = ylon2
213	c
214	DO 250 it = nmax2,0,-1
215	IF( yfi.GE.Yf(it)) GO TO 350
216	250 CONTINUE
217	it = 0
218	350 CONTINUE
219
220	yi = yt(it)
221	IF(it.EQ.nmax2) THEN
222	it = nmax2 -1
223	Yf(it+1) = pis2
224	ENDIF
225	c .................................................................
226	c .... Interpolation entre yi(it) et yi(it+1) pour avoir Y(yi)
227	c ..... et Y'(yi) .....
228	c .................................................................
229
230	CALL coefpoly ( Yf(it),Yf(it+1),Ytprim(it), Ytprim(it+1),
231	, yt(it),yt(it+1) , a0,a1,a2,a3 )
232
233	Yf1 = Yf(it)
234	Yprimin = a1 + 2.* a2 * yi + 3.a3 yi *yi
235
236	DO 500 iter = 1,300
237	yi = yi - ( Yf1 - yfi )/ Yprimin
238
239	IF( ABS(yi-yo1).LE.epsilon) GO TO 550
240	yo1 = yi
241	yi2 = yi * yi
242	Yf1 = a0 + a1 * yi + a2 * yi2 + a3 * yi2 * yi
243	Yprimin = a1 + 2.* a2 * yi + 3.* a3 * yi2
244	500 CONTINUE
245	WRITE(6,) ' Pas de solution **** ',j,ylon2,iter
246	STOP 2
247	550 CONTINUE
248	c
249	Yprimin = a1 + 2.* a2 * yi + 3.* a3 * yi* yi
250	yprim(j) = pi / ( jjm * Yprimin )
251	yvrai(j) = yi
252
253	1500 CONTINUE
254
255	DO j = 1, jlat -1
256	IF( yvrai(j+1). LT. yvrai(j) ) THEN
257	WRITE(6,*) ' PBS. avec rlat(',j+1,') plus petit que rlat(',j,
258	, ')'
259	STOP 3
260	ENDIF
261	ENDDO
262
263	WRITE(6,*) 'Reorganisation des latitudes pour avoir entre - pi/2'
264	, ,' et pi/2 '
265	c
266	IF( ik.EQ.1 ) THEN
267	ypn = pis2
268	DO j = jlat,1,-1
269	IF( yvrai(j).LE. ypn ) GO TO 1502
270	ENDDO
271	1502 CONTINUE
272
273	jpn = j
274	y00 = yvrai(jpn)
275	deply = pis2 - y00
276	ENDIF
277
278	DO j = 1, jjm +1 - jpn
279	ylatt (j) = -pis2 - y00 + yvrai(jpn+j-1)
280	yprimm(j) = yprim(jpn+j-1)
281	ENDDO
282
283	jjpn = jpn
284	IF( jlat.EQ. jjm ) jjpn = jpn -1
285
286	DO j = 1,jjpn
287	ylatt (j + jjm+1 -jpn) = yvrai(j) + deply
288	yprimm(j + jjm+1 -jpn) = yprim(j)
289	ENDDO
290
291	c ********* Fin de la reorganisation ***********
292	c
293	1600 CONTINUE
294
295	DO j = 1, jlat
296	ylat(j) = ylatt( jlat +1 -j )
297	yprim(j) = yprimm( jlat +1 -j )
298	ENDDO
299
300	DO j = 1, jlat
301	yvrai(j) = ylat(j)*180./pi
302	ENDDO
303
304	IF( ik.EQ.1 ) THEN
305	c WRITE(6,18)
306	c WRITE(6,*) ' YLAT en U apres ( en deg. ) '
307	c WRITE(6,68) (yvrai(j),j=1,jlat)
308	cc WRITE(6,*) ' YPRIM '
309	cc WRITE(6,445) ( yprim(j),j=1,jlat)
310
311	DO j = 1, jlat
312	rrlatu(j) = ylat( j )
313	yyprimu(j) = yprim( j )
314	ENDDO
315
316	ELSE IF ( ik.EQ. 2 ) THEN
317	c WRITE(6,18)
318	c WRITE(6,*) ' YLAT en V apres ( en deg. ) '
319	c WRITE(6,68) (yvrai(j),j=1,jlat)
320	cc WRITE(6,*)' YPRIM '
321	cc WRITE(6,445) ( yprim(j),j=1,jlat)
322
323	DO j = 1, jlat
324	rrlatv(j) = ylat( j )
325	yyprimv(j) = yprim( j )
326	ENDDO
327
328	ELSE IF ( ik.EQ. 3 ) THEN
329	c WRITE(6,18)
330	c WRITE(6,*) ' YLAT en U + 0.75 apres ( en deg. ) '
331	c WRITE(6,68) (yvrai(j),j=1,jlat)
332	cc WRITE(6,*) ' YPRIM '
333	cc WRITE(6,445) ( yprim(j),j=1,jlat)
334
335	DO j = 1, jlat
336	rlatu2(j) = ylat( j )
337	yprimu2(j) = yprim( j )
338	ENDDO
339
340	ELSE IF ( ik.EQ. 4 ) THEN
341	c WRITE(6,18)
342	c WRITE(6,*) ' YLAT en U + 0.25 apres ( en deg. ) '
343	c WRITE(6,68)(yvrai(j),j=1,jlat)
344	cc WRITE(6,*) ' YPRIM '
345	cc WRITE(6,68) ( yprim(j),j=1,jlat)
346
347	DO j = 1, jlat
348	rlatu1(j) = ylat( j )
349	yprimu1(j) = yprim( j )
350	ENDDO
351
352	ENDIF
353
354	5000 CONTINUE
355	c
356	WRITE(6,18)
357	c
358	c ..... fin de la boucle do 5000 .....
359
360	DO j = 1, jjm
361	ylat(j) = rrlatu(j) - rrlatu(j+1)
362	ENDDO
363	champmin = 1.e12
364	champmax = -1.e12
365	DO j = 1, jjm
366	champmin = MIN( champmin, ylat(j) )
367	champmax = MAX( champmax, ylat(j) )
368	ENDDO
369	champmin = champmin * 180./pi
370	champmax = champmax * 180./pi
371
372	24 FORMAT(2x,'Parametres yzoom,gross,tau ,dzoom pour fyhyp ',4f8.3)
373	18 FORMAT(/)
374	68 FORMAT(1x,7f9.2)
375
376	RETURN
377	END

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